CN110738287A - gravity induction container system - Google Patents

Abstract

The invention provides an gravity sensing container system, which comprises a shelf, a gravity sensor, a wireless transmission module and a remote server, wherein each shelf comprises a plurality of goods grids, each goods grid is used for placing the same commodities, the gravity sensor is arranged at the bottom of each goods grid and is used for detecting the weight of the commodities placed on the goods grids, the wireless transmission module is used for transmitting the weight information of the gravity sensor to the server, and the remote server is used for calculating the quantity of the commodities on the goods grids according to the weight information and transmitting a lack of goods prompt.

Description

gravity induction container system

The patent application of the invention comprises the following steps: the invention patent with the application date of 2016-08-31 and the application number of 201610774183.1 is named as a gravity sensing container system.

Technical Field

The invention relates to a container remote monitoring system, in particular to a gravity sensing container system.

Background

A packing cupboard for selling commodity needs to check internal commodity quantity, and the mode of checking at present mainly through artifical point, and the defect of artifical point is obvious, if unable real-time check, has hysteresis quality usually, needs to remove the packing cupboard with commodity when commodity is more and checks again, wastes time and energy, easily appears checking mistake etc. consequently, current packing cupboard method of checking has the defect, needs step improvements and perfect.

Disclosure of Invention

() purpose of the invention to solve the above problems of the prior art, it is an object of the present invention to provide gravity sensing container system which automatically senses the weight of the goods through a gravity sensor and analyzes the change of the weight of the goods through a background server and makes data analysis and sales suggestions.

The technical scheme is as follows: gravity-feed tank system, including the goods shelves, still include:

each layer of goods shelf comprises a plurality of goods shelves, and each goods shelf is used for placing the same kinds of goods;

the gravity sensor is arranged at the bottom of each goods grid and used for detecting the weight of goods placed on the goods grid and obtaining weight information, the gravity sensor inputs the position information of the goods grid at the installation position when being installed, the position information of the goods grid is bound with the weight information, the position information of the goods grid comprises the position name of the goods grid, and the position name of the goods grid comprises the X-th row, the Y-th rack, the Z-th row and the i-th grid;

the code scanner is arranged at the entrance of each goods grid, automatically scans codes when goods pass and acquires goods information, wherein the goods information comprises goods names and goods weights;

the wireless transmission module is used for sending the weight information of the gravity sensor, the commodity position information and the commodity information of the code scanner to the server;

the remote server comprises a signal receiving module and a calculating module, the signal receiving module is connected with the wireless transmission module, the calculating module obtains the quantity of the commodities by dividing the gravity signal by the weight of the commodities in the commodity information, and the calculating module correspondingly stores the quantity of the commodities and the position information of the commodity grid.

Preferably, the wireless transmission module sends the weight information of the gravity sensor to a remote server in real time, the remote server further comprises a sales analysis module, and the sales analysis module records the number of the commodities obtained by the calculation module and obtains commodity sales data according to the reduction of the number of the commodities.

Preferably, the wireless transmission module sends the weight information of the gravity sensor to the remote server in real time, the remote server further comprises a sales analysis module, the sales analysis module records the number of the commodities obtained by the calculation module, and the sales data of the commodity grids are obtained according to the position information of the corresponding commodity grids of the reduction of the number of the commodities.

Preferably, the remote server further comprises a sorting module and a purchase suggestion module, the sorting module sorts the commodity sales data and the goods grid sales data to obtain sequentially arranged commodity names and goods grid position names, and the purchase suggestion module corresponds the sequentially arranged commodity names to the sequentially arranged goods grid position names to obtain suggested placement goods grid data of the hot-sold commodities.

Preferably, the wireless transmission module sends the weight information of the gravity sensor to a remote server in real time, the remote server further comprises a sales analysis module, the sales analysis module is provided with a sales time threshold, the calculation module further records a retrieval time value for reducing and recovering the quantity of the commodities, the sales analysis module records the retrieval time value when the retrieval time value is smaller than the sales time threshold, and commodity purchase intention data is obtained according to the number of times of the recorded retrieval time value.

Preferably, the wireless transmission module sends the weight information of the gravity sensor to the remote server in real time, the remote server further comprises a sales analysis module, the sales analysis module is provided with a sales time threshold, the calculation module further records a retrieval time value for reducing and recovering the quantity of the commodities, the sales analysis module records the retrieval time value when the retrieval time value is smaller than the sales time threshold, and the purchase intention data of the commodity lattice are obtained according to the position information of the commodity lattice corresponding to the number of times of the recorded retrieval time value.

Preferably, the remote server further comprises a sorting module and a purchase suggestion module, the sorting module sorts the commodity purchase intention data and the goods grid purchase intention data to obtain sequentially arranged commodity names and goods grid position names, and the purchase suggestion module corresponds the sequentially arranged goods names to the sequentially arranged goods grid position names to obtain suggested placing goods grid data of the commodities with high purchase intention.

Preferably, the remote server is connected with a sales terminal of the commodity, the remote server further comprises a sales analysis module, the sales analysis module records the quantity of the commodity obtained by the calculation module and obtains commodity sales data according to the reduction of the quantity of the commodity, and the difference value is commodity loss data according to the comparison of the commodity sales data and the payment data of the sales terminal.

Preferably, the remote server further comprises a purchase suggestion module, and the commodity loss data is obtained according to the commodity position information corresponding to the commodity loss data.

Preferably, the item lattice loss map is obtained from the item lattice loss data.

Preferably, the remote server further comprises a sorting module, the sorting module sorts the commodity loss data and the goods lattice loss data to obtain sequentially arranged commodity names and reversely arranged goods lattice position names, and the purchase suggestion module corresponds the sequentially arranged commodity names to the reversely arranged goods lattice position names to obtain suggested placement goods lattice data of the high-loss-rate commodities.

Preferably, the remote server further comprises a sorting module and a purchase suggestion module, the sorting module sorts the commodity sales data and the goods lattice loss data to obtain sequentially arranged commodity names and reversely arranged goods lattice position names, and the purchase suggestion module corresponds the sequentially arranged commodity names to the reversely arranged goods lattice position names to obtain suggested placed goods lattice data of the hot-sold commodities.

Preferably, the remote server further comprises a sorting module and a purchase suggestion module, wherein the sorting module sorts the commodity purchase intention data and the goods lattice loss data to obtain sequentially arranged commodity names and reversely arranged goods lattice position names to obtain suggested placing goods lattice data of commodities with high purchase intention.

Preferably, the remote server further comprises a sales analysis module and a purchase suggestion module, the sales analysis module records the number of the commodities obtained by the calculation module, commodity sales data is obtained according to the reduction of the number of the commodities, and the purchase suggestion module obtains the influence result of the colors, the characters, the patterns and the price information of the outer package on the commodity sales data according to the two groups of commodity sales data and the commodity information of the comparison commodities.

Preferably, the bottom of the goods grid is also provided with a support rod and a rotating shaft, and the rotating shaft is controlled to rotate by a remote server.

Preferably, when the remote server calculates that the number of the commodities is reduced, the commodity grids are controlled to incline outwards through the rotating shaft so that the commodities automatically slide to the outermost side.

Preferably, the remote server calculates that the commodity quantity is zero, controls the goods check to lean out to a larger angle through the rotating shaft to enable the goods check to slide outwards to the limiting plate. The larger angle is 15-30 deg..

The gravity sensing container system has the advantages that the commodities in the container are automatically checked through the cooperation of the gravity sensor, the code scanner and the remote server, real-time checking and time and labor saving are achieved, the weight change of the commodity lattice is sensed through the gravity sensor, the sales data of the commodities and the purchase intention data of a customer can be obtained, the lost data of the commodities can be obtained through comparison with a sales terminal, and the placing position suggestion of the commodities can be obtained through analysis and comparison of the lost data and the lost data of the commodities in steps.

Drawings

FIG. 1 is a schematic view of the mechanical structure of a gravity sensing container system according to the invention;

FIG. 2 is a block diagram of merchandise sales data for the gravity sensing container system of the present invention;

FIG. 3 is a diagram of goods grid sales data for the gravity sensitive container system of the present invention;

FIG. 4 is a block diagram of commodity purchase intention data for the gravity sensing container system of the present invention;

FIG. 5 is a block diagram of goods grid buying intention data for a gravity sensing container system of the present invention;

FIG. 6 is a block diagram of the merchandise loss data for the gravity sensing container system of the present invention;

FIG. 7 is a block diagram of the item grid loss data for the gravity sensing container system of the present invention;

FIG. 8 is a block diagram of a back order prompt for a gravity sensing container system of the present invention;

FIG. 9 is a sales speed data block diagram of the gravity sensing container system of the present invention;

FIG. 10 is a block diagram of hot-sell time period data for the gravity sensing container system of the present invention;

FIG. 11 is a graph of the loss of inventory for the gravity sensitive container system of the present invention;

FIG. 12 is a schematic view of the rotation control arrangement of the gravity sensing container system according to the invention;

10-goods grid; 11-a gravity sensor; 12-a code scanner; 13-a support bar; 14-a rotating shaft; 15-limiting plate; 16-control means.

Detailed Description

The invention is described in further detail with reference to preferred embodiments, and more details are set forth in the following description to provide a thorough understanding of the invention, however, it will be apparent that the invention can be practiced in many other ways than those described herein, and those skilled in the art can make similar calculations , deductions based on the actual application without departing from the spirit of the invention, and therefore the scope of the invention should not be limited by the contents of this particular embodiment.

Fig. 1-11 are schematic diagrams of embodiments of the present invention, and it should be noted that the figures are by way of example only and are not drawn to scale, and should not be construed as limiting the true scope of the invention.

The invention provides gravity induction container systems, as shown in figure 1, including the goods shelves, also includes:

each layer of goods shelf comprises a plurality of goods shelves 10, and each goods shelf 10 is used for placing the same goods;

the gravity sensor 11 is arranged at the bottom of each goods grid 10 and used for detecting the weight of goods placed on the goods grids 10 and obtaining weight information, the gravity sensor 11 inputs goods grid position information at an installation position when being installed, the goods grid position information is bound with the weight information, and the goods grid position information comprises goods grid position names;

the code scanner 12 is arranged at the entrance of each goods grid 10, and the code scanner 12 automatically scans codes when goods pass and acquires goods information, wherein the goods information comprises goods names and goods weights;

the wireless transmission module is used for sending the weight information of the gravity sensor 11, the commodity position information and the commodity information of the code scanner 12 to the server;

the remote server comprises a signal receiving module and a calculating module, the signal receiving module is connected with the wireless transmission module, the calculating module obtains the quantity of the commodities by dividing the gravity signal by the weight of the commodities in the commodity information, and the calculating module correspondingly stores the quantity of the commodities and the position information of the commodity grid. The commodity quantity is calculated through the remote server, so that time and labor are saved, data are accurate, and commodity sales suggestions can be obtained according to analysis of commodity quantity changes.

In embodiment , as shown in fig. 2, the wireless transmission module sends the weight information of the gravity sensor 11 to a remote server in real time, the remote server further includes a sales analysis module, the sales analysis module records the number of the commodities obtained by the calculation module, and obtains the sales data of the commodities according to the decrease of the number of the commodities, if the remote server knows that the weight of the first commodity is 10g according to the commodity information obtained by the barcode scanner 12, and knows that the total weight of the first commodity on the commodity grid is 100g according to the weight information, the number of the first commodity is 10, when the weight information is 90g, the first commodity is sold 1, and when the weight information is reduced from 100g to 50g in the operation time, the container is sold 5 in the operation time.

In a second embodiment, as shown in fig. 3, the wireless transmission module sends the weight information of the gravity sensor 11 to the remote server in real time, the remote server further includes a sales analysis module, the sales analysis module records the number of the commodities obtained by the calculation module, and obtains the sales data of the commodity lattice according to the position information of the commodity lattice corresponding to the reduction of the number of the commodities, if the remote server knows that the weight of the first commodity is 10g according to the commodity information and the position information obtained by the code scanner 12, and knows that the total weight of the first commodity on the a1 commodity lattice is 100g according to the weight information, the number of the first commodity is 10, when the weight information is 90g, the first commodity is sold 1, and when the weight information of the a1 commodity lattice is reduced from 100g to 50g in the operation time, the first commodity is sold 5 in the operation time through the a1 lattice.

In a third embodiment, the remote server further includes a sorting module and a purchase suggestion module, the sorting module sorts the commodity sales data and the commodity lattice sales data to obtain commodity names and commodity lattice position names which are sequentially arranged, the purchase suggestion module corresponds the commodity names which are sequentially arranged to the commodity lattice position names which are sequentially arranged to obtain suggested placement commodity lattice data of hot-sold commodities, for example, the commodity names are sorted as a, B, C and D, the commodity lattice position names are sorted as a1, B1, C1 and D1, the commodity a is suggested to be placed in the commodity lattice a1, the commodity B is placed in the commodity lattice B1, the commodity C1 is placed in the commodity lattice C, and the commodity D1 is placed in the commodity lattice D1.

In the fourth embodiment, the same goods are placed in different goods grids, the remote server sorts multiple groups of goods sales data through the sorting module to obtain data of suggested placed goods grids of the same goods, such as a goods are respectively placed in A1, B1, C1 and D1 goods grids, and the goods are sorted according to the sales numbers in different goods grids, and the first goods are suggested to be placed in B1 goods grid if the sales data in B1 goods grid is the highest.

In a fifth embodiment, as shown in fig. 4, the wireless transmission module sends the weight information of the gravity sensor to a remote server in real time, the remote server further includes a sales analysis module, the sales analysis module is provided with a sales time threshold, the calculation module further records a retrieval time value when the number of the commodity is reduced and recovered, the sales analysis module records the retrieval time value when the retrieval time value is smaller than the sales time threshold, commodity purchase intention data is obtained according to the number of times of the retrieval time value, if the remote server knows that the weight of the first commodity is 10g according to the commodity information obtained by the code scanner 12, and knows that the total weight of the first commodity on the commodity grid is 100g according to the weight information, the number of the first commodity is 10, and when the weight information is 90g, the first commodity is retrieved, the calculation module starts to record the retrieval time value, and the sales time threshold is 1 minute, if the weight information is recovered to 100g in 1 minute, namely the taking time value is smaller than the selling time threshold value, the first commodity is known to be put back again, and the first commodity obtains commodity purchasing intention data for 1 time.

Sixth embodiment, as shown in fig. 5, the wireless transmission module sends the weight information of the gravity sensor to the remote server in real time, the remote server further includes a sales analysis module, the sales analysis module is provided with a sales time threshold, the calculation module further records a retrieval time value when the number of the items is reduced and recovered, the sales analysis module records the retrieval time value when the retrieval time value is smaller than the sales time threshold, the purchase intention data of the items are obtained according to the position information of the items corresponding to the number of times of the retrieved retrieval time value, if the remote server knows that the weight of the item a is 10g according to the item information obtained by the barcode scanner 12, knows that the total weight of the item a on the item a1 is 100g according to the weight information, the number of the item a is 10, and when the weight information is 90g, the calculation module starts to record the retrieval time value, the threshold value of the selling time is 1 minute, if the weight information is recovered to 100g in 1 minute and the taking-out time value is less than the threshold value of the selling time, the A1 goods grid obtains 1 time of the data of the intention of purchasing the goods.

Seventh embodiment, the remote server further includes a sorting module and a purchase suggestion module, the sorting module sorts the commodity purchase intention data and the goods lattice purchase intention data to obtain sequentially arranged commodity names and goods lattice position names, the purchase suggestion module matches the sequentially arranged goods names to the sequentially arranged goods lattice position names to obtain suggested placed goods lattice data of commodities with high purchase intention, for example, the commodity purchase intention data is sorted as a, B, C and D, the goods lattice purchase intention data is sorted as a1, B1, C1 and D1, it is suggested that the first commodity is placed in the a1 goods lattice, the second commodity is placed in the B1 goods lattice, the third commodity is placed in the C1 goods lattice, and the D1 goods lattice.

In an eighth embodiment, as shown in fig. 6, the remote server is connected to a sales terminal of a commodity, the remote server further includes a sales analysis module, the sales analysis module records the number of the commodity obtained by the calculation module, obtains commodity sales data according to the reduction of the number of the commodity, and obtains commodity loss data according to a comparison difference between the commodity sales data and the checkout data of the sales terminal, where if the operation time is week , the checkout data of the sales terminal shows that 10 pieces of first commodity are sold, and the commodity sales data obtained by the sales analysis module shows that 12 pieces of first commodity are sold, it indicates that 2 pieces of first commodity are suspected to be lost, and if it is excluded that the first commodity is misplaced and the first commodity is relegated, the sales data obtained by the sales analysis module is still 12 pieces, it indicates that 2 pieces of first commodity are lost, and this container system can also monitor and remind a worker to process the unreveyed commodity in time.

In a ninth embodiment, as shown in fig. 7, the remote server is connected to a sales terminal of a commodity, the remote server further includes a sales analysis module, the sales analysis module records the quantity of the commodity obtained by the calculation module, obtains commodity sales data according to a decrease in the quantity of the commodity, and obtains commodity sales data according to a comparison difference between the commodity sales data and checkout data of the sales terminal, where the commodity sales data is commodity loss data, the purchase suggestion module obtains the commodity lattice loss data according to commodity lattice position information corresponding to the commodity loss data, and if the operation time is week , the checkout data of the sales terminal shows that 10 pieces of the first commodity are sold, and the commodity sales data obtained by the weight information shows that 12 pieces of the first commodity are sold in an a1 commodity lattice, it indicates that 2 pieces of the first commodity are suspected to be lost, and if the wrong placement of the first commodity and the commodity are not repositioned, the sales data obtained by the weight information is still 12 pieces, it indicates that 2 pieces of the first commodity are lost in an a1 lattice.

In the tenth embodiment, as shown in fig. 11, a map for counting the lost goods of containers is obtained according to the lost goods data, and if it is found in the present embodiment that more goods are lost at the middle position and the bottom goods grid position of the container, a camera and a warning slogan can be placed at the position where more goods are lost to reduce the loss rate of the goods.

In example ten , the remote server further comprises a sorting module that sorts the item loss data and the item grid loss data into item names in a sequential order and item grid position names in a reverse order, and the purchase suggesting module matches the item names in the sequential order to the item grid position names in the reverse order to obtain suggested placement item grid data for items with high loss rate, such as item names in a sequential order of a, B, C, and D, and item grid position names in a reverse order of D1, C1, B1, and a1, suggesting that an item a is placed in a D1 item grid, an item B is placed in a C1 item grid, an item C is placed in a B1 item grid, and an item D is placed in an a1 item grid.

In a twelfth embodiment, the remote server further includes a sorting module, the sorting module sorts the sales data of the commodities and the loss data of the goods grids to obtain names of the commodities in the sequential order and names of the goods grids in the reverse order, the purchase suggesting module corresponds the names of the commodities in the sequential order to the names of the goods grids in the reverse order to obtain suggested placed goods data of the hot-sold commodities, for example, the names of the commodities are sequentially arranged to be a, B, C and D, the names of the goods grids are reversely arranged to be D1, C1, B1 and a1, the suggested first commodity is placed in the D1 goods grid, the second commodity is placed in the C1 goods grid, the third commodity is placed in the B1 goods grid, and the D commodity is placed in the a1 goods grid.

In a thirteenth embodiment, the remote server further includes a sorting module, the sorting module sorts the data of the intention of purchasing commodities and the data of lost goods grids to obtain data of suggested placed goods grids of commodities with high intention of purchasing, for example, the data of intention of purchasing commodities are sequentially arranged as a, B, C and D, the data of lost goods grids are reversely arranged as D1, C1, B1 and a1, then the suggested first commodity is placed in a D1 goods grid, the second commodity is placed in a C1 goods grid, the third commodity is placed in a B1 goods grid, and the D commodity is placed in an a1 goods grid.

In the fourteenth embodiment, the comparison commodities are placed in the adjacent commodity grids, the commodity signals of the comparison commodities comprise colors, characters, patterns and price marking information of the outer packages, the remote server obtains the influence results of the colors, the characters, the patterns and the price marking information of the outer packages on the commodity sales data through comparison according to the commodity sales data, if the adjacent commodities are commodities, the red outer packages are arranged on the left side, the black outer packages are arranged on the right side, the commodity sales data show that the sales data of the red outer packages are 100, the sales data of the black outer packages are 20, the red outer packages are recommended to be selected when the commodities are taken, and the manufacturers are recommended to use the red outer packages.

In fifteenth embodiment, as shown in fig. 8, the wireless transmission module sends the weight information of the gravity sensor 11 to the remote server in real time, and the remote server knows that the weight of the first item is 10g according to the commodity sales data of each type of commodity, for example, the remote server knows that the weight of the first item is 10g according to the commodity information obtained by the barcode scanner 12, and knows that the total weight of the first item on the commodity shelf is 100g according to the weight information, that the number of the first item is 10, and when the weight information is 90g, that the first item is sold is 1, and when the weight information is 0g, the remote server sends a shortage prompt to the staff.

Sixthly, as shown in fig. 9, the wireless transmission module sends the weight information of the gravity sensor 11 to the remote server in real time, the remote server knows that the weight of the first commodity is 10g according to the commodity sales data of each type of commodity, for example, the remote server knows that the weight of the first commodity is 10g according to the commodity information obtained by the code scanner 12, and knows that the total weight of the first commodity on the commodity grid is 100g according to the weight information, the number of the first commodity is 10, and it knows that the first commodity is sold 1 when the weight information is 90g, and it knows that the first commodity is sold 5 in the business hours according to the decrease from 100g to 50g in the container, and the sales speed data of the first commodity is 5 pieces/day, and it can provide the basis for the delivery time and the stock quantity according to the sales speed data, for example, the second commodity is sold 50 pieces per week, and the delivery is carried out times every day, and the delivery quantity is.

Seventhly, as shown in fig. 10, the wireless transmission module sends the weight information of the gravity sensor 11 to a remote server in real time, the remote server sends the weight information of the gravity sensor 11 to the remote server in real time according to the commodity sales data of each type of commodity, and the remote server knows that the weight of the first commodity is 10g according to the commodity information obtained by the code scanner 12 and that the total weight of the first commodity on the commodity grid is 100g according to the weight information according to the commodity sales data of each type of commodity, and then knows that the number of the first commodity is 10 when the weight information is 90g, and that the first commodity is sold is 1 according to the container on the day 9: 00-12: the weight of the commercial product A is reduced from 100g to 50g in 00, from 50g to 40g in 12:00-20:00, and the commercial product A is shown to be 9: 00-12: the hot-pin time period in 00 reminds the staff to be 9: 00-12: 00 internal goods are loaded to prevent goods shortage.

Eighteen, as shown in fig. 12, the bottom of the goods shelf is further provided with a support rod 13, a rotating shaft 14 and a control device 16, the rotating shaft 14 is controlled to rotate by the control device 16 and a remote server, that is, the remote server can control the inclination angle of the goods shelf by the rotating shaft 14, and the control device 16 is a motor.

In nineteenth embodiment, when the remote server calculates that the number of the commodities is reduced, the commodity grids 10 are controlled to incline outwards through the rotating shafts 14, so that the commodities automatically slide to the outermost side, and a customer can be guaranteed to take the commodities at the outermost side at any time.

In the twenty embodiment, when the remote server calculates that the number of the commodities is zero, the rotating shaft 14 controls the commodity grids 10 to incline outwards to a larger angle, so that the commodity grids 10 slide outwards to the limiting plate 15. The larger angle is 15-30 deg.. The staff finds that the goods can be loaded in time when the goods lattice 10 slides to the position of the limiting plate 15, so that the situation that the goods are out of stock and the sales are influenced is prevented.

The above description is provided for the purpose of illustrating the preferred embodiments of the present invention and will assist those skilled in the art in more fully understanding the technical solutions of the present invention. However, these examples are merely illustrative, and the embodiments of the present invention are not to be considered as being limited to the description of these examples. For those skilled in the art to which the invention pertains, several simple deductions and changes can be made without departing from the inventive concept, and all should be considered as falling within the protection scope of the invention.

Claims (9)

1. Gravity-feed tank system, including goods shelves, its characterized in that still includes:

a goods grid; the gravity sensor is arranged at the bottom of each goods grid and used for detecting the weight of the goods placed on the goods grids and obtaining weight information;

the wireless transmission module is used for sending the weight information of the gravity sensor to the server;

the remote server comprises a signal receiving module and a calculating module, the signal receiving module is connected with the wireless transmission module, the calculating module obtains the quantity of the commodities by dividing the gravity signal by the weight of the commodities in the commodity information, and the calculating module correspondingly stores the quantity of the commodities and the position information of the commodity grid.

2. The gravity sensing container system of claim 1, wherein: the gravity sensor inputs goods grid position information at the installation position, the goods grid position information is bound with the weight information, and the goods grid position information comprises goods grid position names;

the goods shelf system also comprises a code scanner which is arranged at the entrance of each goods shelf and automatically scans codes and acquires goods information when goods pass through;

and the wireless transmission module sends the commodity information of the code scanner to a server.

3. The gravity sensing container system of claim 1, wherein: the wireless transmission module sends the weight information of the gravity sensor to the remote server in real time, the remote server further comprises a sales analysis module, and the sales analysis module records the commodity number obtained by the calculation module and obtains commodity sales data according to the reduction of the commodity number.

4. The gravity sensing container system of claim 1, wherein: the wireless transmission module sends the weight information of the gravity sensor to the remote server in real time, the remote server further comprises a sales analysis module, the sales analysis module records the quantity of the commodities obtained by the calculation module, and the sales data of the commodity grids are obtained according to the position information of the corresponding commodity grids of the reduction of the quantity of the commodities.

5. The gravity sensing container system according to claim 3-4, wherein: the remote server also comprises a sorting module and a purchase suggestion module, the sorting module sorts the commodity sales data and the goods grid sales data to obtain sequentially arranged commodity names and goods grid position names, and the purchase suggestion module corresponds the sequentially arranged commodity names to the sequentially arranged goods grid position names to obtain suggested placing goods grid data of hot-sell commodities.

6. The gravity sensing container system of claim 2, wherein: the wireless transmission module sends the weight information of the gravity sensor to a remote server in real time, the remote server further comprises a sales analysis module, the sales analysis module is provided with a sales time threshold, the calculation module further records a taking-out time value of the decreased and recovered quantity of the commodities, the sales analysis module records the taking-out time value when the taking-out time value is smaller than the sales time threshold, and commodity purchase intention data are obtained according to the number of times of the recorded taking-out time value.

7. The gravity sensing container system of claim 2, wherein: the wireless transmission module sends the weight information of the gravity sensor to the remote server in real time, the remote server further comprises a sales analysis module, the sales analysis module is provided with a sales time threshold, the calculation module further records a taking-out time value of the decreased and recovered quantity of the commodities, the sales analysis module records the taking-out time value when the taking-out time value is smaller than the sales time threshold, and the purchase intention data of the commodity lattice are obtained according to the position information of the commodity lattice corresponding to the times of the recorded taking-out time value.

8. The gravity sensing container system according to claim 6-7, wherein: the remote server also comprises a sorting module and a purchase suggestion module, the sorting module sorts the commodity purchase intention data and the goods grid purchase intention data to obtain sequentially arranged commodity names and goods grid position names, and the purchase suggestion module corresponds the sequentially arranged commodity names to the sequentially arranged goods grid position names to obtain suggested placing goods grid data of goods with high purchase intention.

9. The gravity sensing container system of claim 2, wherein: the remote server is connected with a commodity sales terminal, the remote server further comprises a sales analysis module, the sales analysis module records the quantity of commodities obtained by the calculation module, commodity sales data are obtained according to the reduction of the quantity of the commodities, and the difference value is compared with the checkout data of the sales terminal according to the commodity sales data to form commodity loss data.

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